Literaturverzeichnis

1. World Health Organization. Global Health Risks: Mortality and burden of disease attributable to selected major risks. Geneva: World Health Organization; 2009.

2. World Health Organization. Guideline Sugars intake for adults and children. Genf.

2015.

3. Bundesamt für Statistik (BFS). Landwirtschaft und Ernährung. Taschenstatistik 2018. Neuenburg: Bundesamt für Statistik (BFS);2018.

4. Chatelan A, Beer-Borst S, Randriamiharisoa A, et al. Major Differences in Diet across Three Linguistic Regions of Switzerland: Results from the First National Nutrition Survey menuCH. Nutrients. 2017;9(11).

5. Hugues R, Margetts BM. Practical Public Health Nutrition. Chichester: Wiley-Blackwell; 2011.

6. Bundesamt für Lebensmittelsicherheit und Veterinärwesen (BLV). Geniessen und gesund bleiben. Schweizer Ernährungsstrategie 2017–2024. Bern. 2017.

7. Bundesamt für Lebensmittelsicherheit und Veterinärwesen (BLV).

Zuckerreduktion. https://www.blv.admin.ch/blv/de/home/lebensmittel-und-ernaehrung/ernaehrung/produktzusammensetzung/zuckerreduktion.html. Zugriff auf die frz. Version 15.05.2019.

8. Bélanger M, LeBlanc M, Dubost M. La nutrition. 4e ed. Montréal: Chenelière Education; 2015.

9. Fitch C, Keim KS, Dietetics AoNa. Position of the Academy of Nutrition and Dietetics: use of nutritive and nonnutritive sweeteners. J Acad Nutr Diet.

2012;112(5):739-758.

10. Bundesamt für Lebensmittelsicherheit und Veterinärwesen (BLV). Leitfaden zur Definition und Berechnung des zugesetzten Zuckers. Bern 2017.

11. Deutsche Adipositas-Gesellschaft, Deutsche Diabetes Gesellschaft, Deutsche Gesellschaft für Ernährung. Konsensuspapier – Quantitative Empfehlung zur Zuckerzufuhr in Deutschland. 2018.

12. Agence nationale de sécurité sanitaire de l’alimentation, de l’environnement et du travail. Actualisation des repères du PNNS : établissement de recommandations d'apport de sucres. Paris. 2016.

13. Società Italiana di Nutrizione Umana SINU. Carboidrati e fibra alimentare. 2014;

http://www.sinu.it/html/pag/05-CARBOIDRATI-E-FIBRA-ALIMENTARE.asp].

Zugriff 20.03.2019.

14. Tran C, Tappy L. Sucrose, glucose, fructose consumption: what are the impacts on metabolic health? Rev Med Suisse. 2012;8(331):513, 515-518.

15. Bundesamt für Gesundheit BAG. Empfehlungen der Eidgenössischen Ernährungskommission zur Kohlenhydrat-Zufuhr in Kürze. Bern. 2009.

16. Schweizerische Gesellschaft für Ernährung SGE. Schweizer Lebensmittelpyramide. 2011;

http://www.sge-ssn.ch/media/sge_pyramid_basic_D_20161.pdf.

17. Tappy L, Morio B, Azzout-Marniche D, et al. French Recommendations for Sugar Intake in Adults: A Novel Approach Chosen by ANSES. Nutrients. 2018;10(8).

18. Bondioni E, Jagalt C. Sucres et caries dentaires - Un guide pratique pour réduire la consommation de sucres et enrayer l'épidémie de caries dentaires. Genf: FDI World Dental Federation;2017.

19. Bucher Della Torre S, Keller A, Laure Depeyre J, Kruseman M. Sugar-Sweetened Beverages and Obesity Risk in Children and Adolescents: A Systematic Analysis on How Methodological Quality May Influence Conclusions. J Acad Nutr Diet.

2016;116(4):638-659.

20. Nestlé M. Taking on big soda (and winning). New York: Oxford University Press;

2015.

21. Keller A, Bucher Della Torre S. Sugar-Sweetened Beverages and Obesity among Children and Adolescents: A Review of Systematic Literature Reviews. Childhood obesity (Print). 2015;11(4):338-346.

22. Bundesamt für Lebensmittelsicherheit und Veterinärwesen (BLV). Fachinformation Ernährung – Konsum von Süssem und Salzigem in der Schweiz 2014/15. Bern.

2017.

23. Bundesamt für Lebensmittelsicherheit und Veterinärwesen (BLV). Fachinformation Ernährung – Milch- und Milchproduktekonsum in der Schweiz 2014/15. Bern.

2017.

24. Bundesamt für Lebensmittelsicherheit und Veterinärwesen (BLV). Fachinformation Ernährung – Getränkekonsum in der Schweiz 2014/15. Bern. 2017.

25. Chatelan A, Gaillard P, Kruseman M, Keller A. Total, Added, and Free Sugar Consumption and Adherence to Guidelines in Switzerland: Results from the First National Nutrition Survey menuCH. Nutrients. 2019;11(5).

26. Azais-Braesco V, Sluik D, Maillot M, Kok F, Moreno LA. A review of total & added sugar intakes and dietary sources in Europe. Nutrition journal. 2017;16(1):6.

27. Mozaffarian D, Angell SY, Lang T, Rivera JA. Role of government policy in nutrition-barriers to and opportunities for healthier eating. BMJ. 2018;361:k2426.

28. Mazarello Paes V, Hesketh K, O'Malley C, et al. Determinants of sugar-sweetened beverage consumption in young children: a systematic review. Obes Rev.

2015;16(11):903-913.

29. Bundesamt für Gesundheit BAG. Nationale Strategie Prävention

nichtübertragbarer Krankheiten (NCD-Strategie). Bern: BAG und Schweizerische Konferenz der kantonalen Gesundheitsdirektorinnen und -direktoren (GDK);2016.

30. Bundesamt für Statistik (BFS). Gesundheit – Taschenstatistik 2018.

Neuenburg2018.

31. Gesundheitsförderung Schweiz. BMI-Monitoring bei Kindern und Jugendlichen:

nur noch jedes sechste Kind von Übergewicht oder Adipositas betroffen. 2018;

https://gesundheitsfoerderung.ch/ueber- uns/medien/medienmitteilungen/artikel/bmi-monitoring-bei-kindern-und- jugendlichen-nur-noch-jedes-sechste-kind-von-uebergewicht-oder-adipositas-betroffen.html.

32. Hawkes C, Jewell J, Allen K. A food policy package for healthy diets and the prevention of obesity and diet-related non-communicable diseases: the NOURISHING framework. Obes Rev. 2013;14 Suppl 2:159-168.

33. European Commission's science and knowledge service. Health Promotion &

Disease Prevention - Sugars and Sweeteners. https://ec.europa.eu/jrc/en/health-knowledge-gateway/promotion-prevention/nutrition/sugars-sweeteners#_Tocch1.

34. NOURISHING database. World Cancer Research Fund International; 2018.

https://www.wcrf.org/int/policy/nourishing-database. Zugriff 20.03.2019.

35. Bundesamt für Lebensmittelsicherheit und Veterinärwesen (BLV), Schweizer Verband für Spital- Heim- und Gemeinschaftsgastronomie. Schweizer

Qualitätsstandards für eine gesundheitsfördernde Gemeinschaftsgastronomie.

Zofingen 2017.

36. Bundesamt für Lebensmittelsicherheit und Veterinärwesen(BLV). Wahl gesunder Lebensmittel. 2019; https://www.blv.admin.ch/blv/de/home/lebensmittel-und- ernaehrung/ernaehrung/empfehlungen-informationen/wahl-gesunder-lebensmittel.html.

38. Fédération romande des consommateurs. Des efforts mais peut mieux faire.

Observatoire du sucre 2017; https://www.frc.ch/des-efforts-mais-peut-mieux-faire/.

39. Fédération romande des consommateurs. Des calculteurs utiles au quotidien.

2018; https://www.frc.ch/utile-au-quotidien/calculateurs/].

40. Fédération romande des consommateurs. Choco Leo ou comment on emballe nos enfants. 2015; https://www.frc.ch/comment-on-emballe-nos-enfants/].

41. Konsumentenschutz. Ratgeber «Zucker: Weniger ist mehr». 2017;

https://www.konsumentenschutz.ch/medienmitteilungen/2017/06/neuer-ratgeber-zucker-weniger-ist-mehr/].

42. Konsumentenschutz. Zuckerreduktion: Wo bleibt die Konsumenteninformation?

2017;

https://www.konsumentenschutz.ch/themen/lebensmittelkennzeichnung/zuckerred uktion/].

43. Konsumentenschutz. Zuckerreduktion: Tropfen auf den heissen Stein. 2018;

https://www.konsumentenschutz.ch/allgemein/2018/04/zuckerreduktion-tropfen-auf-den-heissen-stein/].

44. Konsumentenschutz. Zuckersteuer: Zuerst informieren, dann besteuern. 2017;

https://www.konsumentenschutz.ch/themen/lebensmittelkennzeichnung/zuckerste uer-zuerst-informieren-dann-besteuern/].

45. Associazione consumatrici e consumatori della Svizzera italiana, Fédération romande des consommateurs. Campagne "Renoncer aux effigies sur les emballages alimentaires". . 2017;

https://www.frc.ch/wp-content/uploads/2017/06/12_06-lettre-ouverte-marketing-enfant.pdf].

46. Fourchette verte. Fourchette verte – Allgemeiner Teil. 2017;

https://www.fourchetteverte.ch/img/file/Brochures/FV_BROCHURE_FR_web.pdf].

47. Gesundheitsförderung Schweiz. Süssgetränke.

https://gesundheitsfoerderung.ch/kantonale-aktionsprogramme/ernaehrung-und-bewegung/kinder-und-jugendliche/fokusthemen/suessgetraenke.html.

48. Gesundheitsförderung Schweiz. Zucker: Weniger ist mehr. 2019; http://www.sge-ssn.ch/media/Zuckerflyer_Deutsch.pdf.

49. Plan d'Etudes Romand. Plan d'études Romand. https://www.plandetudes.ch/.

50. Deutschschweizer Erziehungsdirektoren-Konferenz D-EDK. Lehrplan 21.

https://www.lehrplan21.ch/. Z 20.03.2019.

51. Raine KD, Lobstein T, Landon J, et al. Restricting marketing to children:

consensus on policy interventions to address obesity. J Public Health Policy.

2013;34(2):239-253.

52. Jenkin G, Madhvani N, Signal L, Bowers S. A systematic review of persuasive marketing techniques to promote food to children on television. Obes Rev.

2014;15(4):281-293.

53. Fédération romande des consommateurs (FRC), Stiftung für Konsumentenschutz (SKS), Associazione consumatrici e consumatori della Svizzera italiana (ACSI).

Publicités alimentaires à l’attention des enfants sur les chaînes de télévision suisse des trois régions linguistiques Octobre-novembre 2011 - Etude KIWI 2.

2012; https://www.frc.ch/wp-content/uploads/2012/11/KIWI2-rapport-06.11.20123.pdf.

54. World Health Organization. WHO Regional Office for Europe. Marketing of foods high in fat, salt and sugar to children: update 2012–2013. 2013;

http://www.euro.who.int/__data/assets/pdf_file/0019/191125/e96859.pdf.

55. Boyland EJ, Halford JC. Television advertising and branding. Effects on eating behaviour and food preferences in children. Appetite. 2013;62:236-241.

56. Organisation Mondiale de la Santé. Ensemble de recommandations sur la commercialisation des aliments et des boissons non alcoolisées destinés aux enfants. 2010.

57. World Health Organization. WHO Regional Office for Europe nutrient profile model. Copenhagen.2015.

58. World Health Organization, Regional Office for Europe. WHO European Action Network on reducing marketing pressure on children. 2016.

59. EU Pledge, Swiss Pledge. Nährwertkriterien – White Paper. 2019.

60. Guadagnolo E, Marti A, Moullet C, Jotterand Chaparro C. Travail de Bachelor : Analyse des critères nutritionnels de l’industrie alimentaire destinés à la régulation de la publicité chez l’enfant: Filière Nutrition et diététique, Haute école de santé Genf; 2017.

61. Baumer B, Brombach C, Knöbel H, Lipp B, Sych J. Kriterien zur Beurteilung für das an Kinder gerichtete Lebensmittelmarketing. Zürcher Hochschule für Angewandte Wissenschaften; 2015.

62. Popkin BM, Hawkes C. Sweetening of the global diet, particularly beverages:

patterns, trends, and policy responses. Lancet Diabetes Endocrinol.

2016;4(2):174-186.

63. Gordon R, McDermott L, Stead M, Angus K. The effectiveness of social marketing interventions for health improvement: what's the evidence? Public Health.

2006;120(12):1133-1139.

64. Moore SG, Donnelly JK, Jones S, Cade JE. Effect of Educational Interventions on Understanding and Use of Nutrition Labels: A Systematic Review. Nutrients.

2018;10(10).

65. Campos S, Doxey J, Hammond D. Nutrition labels on pre-packaged foods: a systematic review. Public Health Nutr. 2011;14(8):1496-1506.

66. Egnell M, Ducrot P, Touvier M, et al. Objective understanding of Nutri-Score Front-Of-Package nutrition label according to individual characteristics of subjects:

Comparisons with other format labels. PloS One. 2018;13(8):e0202095.

67. European Commission's science and knowledge service. EU-Schulprogramm.

2018; https://ec.europa.eu/commission/news/eu-school-scheme-2018-sep-03_de.

68. World Cancer Research Fund International. Curbing global sugar consumption.

Effective food policy actions to help promote healthy diets & tackle obesity.

London. 2015.

69. Nagy B, Varga A, Kovacs VA, Erdei G, Bakacs M, Martos E. The Hungarian Aqua Promoting Programme in the Young (HAPPY) - A best practice, sustainable community-based intervention programme in Hungary. 5th Central European Congress On Obesity; 2015; Budapest.

70. Pechey R, Marteau TM. Availability of healthier vs. less healthy food and food choice: an online experiment. BMC Public Health. 2018;18(1):1296.

71. Pechey R, Cartwright E, Pilling M, et al. Impact of increasing the proportion of healthier foods available on energy purchased in worksite cafeterias: A stepped wedge randomized controlled pilot trial. Appetite. 2019;133:286-296.

72. Hipp JA, Becker HV, Marx CM, Tabak RG, Brownson RC, Yang L. Worksite nutrition supports and sugar-sweetened beverage consumption. Obes Sci Pract.

2016;2(2):144-153.

73. Yeung CHC, Gohil P, Rangan AM, et al. Modelling of the impact of universal added sugar reduction through food reformulation. Sci Rep. 2017;7(1):17392.

74. Ledikwe JH, Ello-Martin JA, Rolls BJ. Portion sizes and the obesity epidemic. The Journal of nutrition. 2005;135(4):905-909.

75. Hawkes C. Marketing Food to Children: the Global Regulatory Environment.

Geneva: World Health Organization;2004.

77. Dhar T, Baylis K. Fast-Food Consumption and the Ban on Advertising Targeting Children: The Quebec Experience. J Marketing Res. 2011;48(5):799-813.

78. Taber DR, Dulin-Keita A, Fallon M, et al. Society of Behavioral Medicine (SBM) position statement: Enact taxes on sugar sweetened beverages to prevent chronic disease. Transl Behav Med. 2019;9(1):179-183.

79. Brownell KD, Frieden TR. Ounces of prevention--the public policy case for taxes on sugared beverages. N Engl J Med. 2009;360(18):1805-1808.

80. Backholer K, Sarink D, Beauchamp A, et al. The impact of a tax on

sugar-sweetened beverages according to socio-economic position: a systematic review of the evidence. Public Health Nutr. 2016;19(17):3070-3084.

81. Long MW, Gortmaker SL, Ward ZJ, et al. Cost Effectiveness of a

Sugar-Sweetened Beverage Excise Tax in the U.S. Am J Prev Med. 2015;49(1):112-123.

82. Manyema M, Veerman LJ, Tugendhaft A, Labadarios D, Hofman KJ. Modelling the potential impact of a sugar-sweetened beverage tax on stroke mortality, costs and health-adjusted life years in South Africa. BMC Public Health. 2016;16:405.

83. Sanchez-Romero LM, Penko J, Coxson PG, et al. Projected Impact of Mexico's Sugar-Sweetened Beverage Tax Policy on Diabetes and Cardiovascular Disease:

A Modeling Study. PLoS Medicine. 2016;13(11):e1002158.

84. Veerman JL, Sacks G, Antonopoulos N, Martin J. The Impact of a Tax on Sugar-Sweetened Beverages on Health and Health Care Costs: A Modelling Study. PloS One. 2016;11(4):e0151460.

85. Gortmaker SL, Wang YC, Long MW, et al. Three Interventions That Reduce Childhood Obesity Are Projected To Save More Than They Cost To Implement.

Health affairs (Project Hope). 2015;34(11):1932-1939.

86. Thow AM, Downs S, Jan S. A systematic review of the effectiveness of food taxes and subsidies to improve diets: understanding the recent evidence. Nutr Rev.

2014;72(9):551-565.

87. Kroh LW. Caramelisation in food and beverages. Food Chemistry. 1994;51(4):373-379.

88. Spillane W. Optimizing sweet taste in foods. 1 ed. Cambridge: Woodhead Publishing; 2006.

89. Lima M, Ares G, Deliza R. Comparison of two sugar reduction strategies with children: Case study with grape nectars. Food Qual Prefer. 2019;71:163-167 90. Tsitlakidou P, Van Loey A, Methven L, Elmore JS. Effect of sugar reduction on

flavour release and sensory perception in an orange juice soft drink model. Food Chem. 2019;284:125-132.

91. Boutonnier JL. Glucides et alimentation : aspects technologiques. Techniques de l’ingénieur; 2016. réf F6154 v1.

92. Piazza L, Gigli J, Benedetti S. Study of structure and flavour release relationships in low moisture bakery products by means of the acoustic–mechanical combined technique and the electronic nose. J Cereal Sci. 2008;48(2):413-419.

93. Guggisberg D, Piccinali P, Schreier K. Effects of sugar substitution with Stevia, Actilight (TM) and Stevia combinations or Palatinose (TM) on rheological and sensory characteristics of low-fat and whole milk set yoghurt. Int Dairy J.

2011;21(9):636-644.

94. Aubret E. Mécanismes de gélification des pectines, Cedus : la texture des produits sucrés. 5ème colloque de l’Alliance 7;2002.

95. Luo X, Arcot J, Gill T, Louie JCY, Rangan AM. A review of food reformulation of baked products to reduce added sugar intake. Trends Food Sci Technol.

2019;86:412-425.

96. Farzi M, Saffari MM, Emam-Djomeh Z. Effects of sugar, starch and HPMC concentrations on textural properties of reduced-sugar sponge cakes. J Food Sci Technol. 2015;52:444-450.

97. Goff H, Hartel R. Ice Cream. 7 ed: Springer Science & Business Media; 2013.

98. Mariotti M, Lucisano M. Sugar and sweeteners. In: Zhou W, ed. Bakery products science and technology. 2 ed. Hoboken: Wiley-Blackwell; 2014:199-221.

99. Béal C, Sodini I. Fabrication des yaourts et des laits fermentés. Techniques de l’ingénieur;2003. réf F6315 v1.

100. Wolf I, Vénica CI, Perotti MC. Effect of reduction of lactose in yogurts by addition of beta-galactosidase enzyme on volatile compound profile and quality

parameters. J Sci Food Agr. 2015;50:1076-1082.

101. Mariotti M, Alamprese C. About the use of different sweeteners in baked goods.

Influence on the mechanical and rheological properties of the doughs. Food Science and Technology. 2012;48(1):9-15.

102. Fast R, Caldwell E. Breakfast cereal and how they are made, 2nd Edition. St Paul, Minnesota, USA: American Association of Cereal Chemists; 2000.

103. FAO. Rapport de la Vingt-Troisième Session du Comité du Codex sur les Poissons et les Produits de la Pêche. Bergen. 1998.

104. Zhang L, Peterson DG. Identification of bitter compounds in extruded corn puffed products. Food Chem. 2018;254:185-192.

105. McCain HR, Kaliappan S, Drake MA. Invited review: Sugar reduction in dairy products. J Dairy Sci. 2018;101(10):8619-8640.

106. Schweizerische Eidgenossenschaft. Verordnung des EDI über die zulässigen Zusatzstoffe in Lebensmitteln. In: Eidgenössisches Departement des Inneren (EDI), Ausg. 1 Januar 2014.

107. Hayer A. Sucres et édulcorants. Recommandations pour les enfants et les adolescents. Bernund Lausanne.2014.

108. Adhikari K, Dooley LM, Chambers E, Bhumiratana N. Sensory characteristics of commercial lactose-free milks manufactured in the United States. LWT - Food Science and Technology. 2010;43(1):113-118.

109. Heinio RL NM, Katina K, Alam SA, Sozer N, de Kock HL, Hersleth M, Poutanen K.

Sensory characteristics of wholegrain and bran-rich cereal foods: A review. Trends Food Sci Technol. 2016;47:25-38.

110. Starr G, Bredie, W.L.P., Hansen Å.S. Sensory profiles of cooked grains from wheat species and varieties. J Cereal Sci. 2013;57(3):295-303.

111. Pamies BV, Roudaut G, Dacremont C, Le Meste M, Mitchell JR. Understanding the texture of low moisture cereal products: mechanical and sensory

measurements of crispness. J Sci Food Agr. 2000;80(11):1679-1685.

112. Ding QB, Ainsworth P, Plunkett A. The comparison of the effects of extrusion conditions on the physicochemical properties and sensory characteristics of maize, rice and wheat-based expanded snacks. In: Cauvain SP, Salmon SS, Young LS, eds. Using Cereal Science and Technology for the Benefit of Consumers

Woodhead Publishing Series in Food Science, Technology and Nutrition;

2005:474-479.

113. Robin F, Schuchmann H, Palzer S. Dietary fiber in extruded cereals: Limitations and opportunities. Trends Food Sci Technol. 2012;28:23-32.

114. Lesme H, Rannou C, Loisel C, Famelart MH, Bouhallab S, Prost C. Controlled whey protein aggregates to modulate the texture of fat-free set-type yoghurts. Int Dairy J. 2019;92:28-36.

115. Maone TR, Mattes RD, Bernbaum JC, Beauchamp GK. A new method for delivering a taste without fluids to preterm and term infants. Dev Psychobiol.

1990;23(2):179-191.

117. Stevens B, Yamada J, Lee GY, Ohlsson A. Sucrose for analgesia in newborn infants undergoing painful procedures. Cochrane Database Syst Rev.

2013(1):CD001069.

118. Mennella JA, Bobowski NK. The sweetness and bitterness of childhood: Insights from basic research on taste preferences. Physiol Behav. 2015;152:502-507.

119. Desor JA, Greene LS, Maller O. Preferences for sweet and salty in 9- to 15-year-old and adult humans. Science (New York, NY). 1975;190(4215):686-687.

120. Greene LS, Desor JA, Maller O. Heredity and experience: their relative importance in the development of taste preference in man. J Comp Physiol Psychol.

1975;89(3):279-284.

121. De Graaf C, Zandstra EH. Sweetness intensity and pleasantness in children, adolescents, and adults. Physiol Behav. 1999;67(4):513-520.

122. Mennella JA, Finkbeiner S, Reed DR. The proof is in the pudding: children prefer lower fat but higher sugar than do mothers. Int J Obes (Lond). 2012;36(10):1285-1291.

123. Desor JA, Beauchamp GK. Longitudinal changes in sweet preferences in humans.

Physiol Behav. 1987;39(5):639-641.

124. Bouhlal S, Issanchou S, Nicklaus S. The impact of salt, fat and sugar levels on toddler food intake. Br J Nutr. 2011;105(4):645-653.

125. Yon BA, Johnson RK, Stickle TR. School children's consumption of lower-calorie flavored milk: a plate waste study. Journal of the Academy of Nutrition and Dietetics. 2012;112(1):132-136.

126. Sullivan SA, Birch LL. Pass the sugar, pass the salt - Experience dictates preference. Dev Psychol. 1990;26(4):546-551.

127. Liem DG, De Graaf C. Sweet and sour preferences in young children and adults:

role of repeated exposure. Physiol Behav. 2004;83(3):421-429.

128. Pepino MY, Mennella JA. Factors contributing to individual differences in sucrose preference. Chem Senses. 2005;30 Suppl 1:i319-320.

129. Beauchamp GK, Moran M. Acceptance of sweet and salty tastes in 2-year-old children. Appetite. 1984;5(4):291-305.

130. Beauchamp GK, Moran M. Dietary experience and sweet taste preference in human infants. Appetite. 1982;3(2):139-152.

131. Nuffield Council on Bioethics. Public health: ethical issues - a guide to the report.

London. 2007.

132. World Health Organization. Assessment of the impact of a public health product tax. Budapest.2015.

133. Powell LM, Wada R, Persky JJ, Chaloupka FJ. Employment impact of sugar-sweetened beverage taxes. Am J Public Health. 2014;104(4):672-677.

134. Rudd Center for Food Policy & Obesity. Increasing disparities in unhealthy food advertising targeted to Hispanic and Black youth. 2019;

http://uconnruddcenter.org/files/Pdfs/TargetedMarketingReport2019.pdf. Accessed 16.05.2019.

135. Café ACC, Lopes CAdO, Novais RLR, et al. Intake of sugar-sweetened beverages, milk and its association with body mass index in adolescence: a systematic review. Rev Paul de Pediatr. 2018;36(1):91-99.

136. Nissensohn M, Fuentes Lugo D, Serra-Majem L. Sugar-sweetened beverage consumption and obesity in children's meta-analyses: reaching wrong answers for right questions. Nutr Hosp. 2018;35(2):474-488.

137. Ruanpeng D, Thongprayoon C, Cheungpasitporn W, Harindhanavudhi T. Sugar and artificially sweetened beverages linked to obesity: a systematic review and meta-analysis. QJM. 2017;110(8):513-520.

138. Pan A, Malik VS, Hao T, Willett WC, Mozaffarian D, Hu FB. Changes in water and beverage intake and long-term weight changes: results from three prospective cohort studies. Int J Obes (Lond). 2013;37(10):1378-1385.

139. Malik V, Pan A, Willett W, Hu F. Sugar-sweetened beverages and weight gain in children and adults: a systematic review and meta-analysis. The American Journal of Clinical Nutrition. 2013;98(4):1084-1102.

140. Barone Gibbs B, Kinzel LS, Pettee Gabriel K, Chang YF, Kuller LH. Short- and long-term eating habit modification predicts weight change in overweight, postmenopausal women: results from the WOMAN study. J Acad Nutr Diet.

2012;112(9):1347-1355.e1342.

141. de Koning L, Malik VS, Kellogg MD, Rimm EB, Willett WC, Hu FB. Sweetened beverage consumption, incident coronary heart disease, and biomarkers of risk in men. Circulation. 2012;125(14):1735-1741, s1731.

142. Te Morenga L, Mallard S, Mann J. Dietary sugars and body weight: systematic review and meta-analyses of randomised controlled trials and cohort studies. BMJ.

2012;346:e7492.

143. Mozaffarian D, Hao T, Rimm EB, Willett WC, Hu FB. Changes in diet and lifestyle and long-term weight gain in women and men. N Engl J Med. 2011;364(25):2392-2404.

144. Mattes RD, Shikany JM, Kaiser KA, Allison DB. Nutritively sweetened beverage consumption and body weight: a systematic review and meta-analysis of

randomized experiments. Obes Rev. 2011;12(5):346-365.

145. Chen L, Appel LJ, Loria C, et al. Reduction in consumption of sugar-sweetened beverages is associated with weight loss: the PREMIER trial. Am J Clin Nutr.

2009;89(5):1299-1306.

146. Palmer JR, Boggs DA, Krishnan S, Hu FB, Singer M, Rosenberg L. Sugar-sweetened beverages and incidence of type 2 diabetes mellitus in African American women. Arch Intern Med. 2008;168(14):1487-1492.

147. Stookey JD, Constant F, Popkin BM, Gardner CD. Drinking water is associated with weight loss in overweight dieting women independent of diet and activity.

Obesity (Silver Spring, Md). 2008;16(11):2481-2488.

148. Vartanian LR, Schwartz MB, Brownell KD. Effects of soft drink consumption on nutrition and health: a systematic review and meta-analysis. Am J Public Health.

2007;97(4):667-675.

149. Bes-Rastrollo M, Sanchez-Villegas A, Gomez-Gracia E, Martinez JA, Pajares RM, Martinez-Gonzalez MA. Predictors of weight gain in a Mediterranean cohort: the Seguimiento Universidad de Navarra Study 1. Am J Clin Nutr. 2006;83(2):362-370;

quiz 394-365.

150. McKeown NM, Dashti HS, Ma J, et al. Sugar-sweetened beverage intake associations with fasting glucose and insulin concentrations are not modified by selected genetic variants in a ChREBP-FGF21 pathway: a meta-analysis.

150. McKeown NM, Dashti HS, Ma J, et al. Sugar-sweetened beverage intake associations with fasting glucose and insulin concentrations are not modified by selected genetic variants in a ChREBP-FGF21 pathway: a meta-analysis.

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